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find Keyword "3-D 打印" 6 results
  • Preliminary application of three dimensional printing personalized navigation template in assisting total elbow replacement for patients with elbow tumor

    Objective To explore the clinical methods of resection of elbow tumor and total elbow replacement with custom personalized prosthesis based on three dimensional (3-D) printing navigation template. Methods In August 2016, a 63-year-old male patient with left elbow joint tumor was treated, with the discovery of the left distal humerus huge mass over 3 months, with elbow pain, activity limitation of admission. Computer-assisted reduction technique combined with 3-D printing was used to simulate preoperative tumor resection, a customized personal prosthesis was developed; tumor was accurately excised during operation, and the clinical result was evaluated after operation. Results The time was 46 minutes for tumor resection, and was 95 minutes for personalized implant and allograft bone without fluoroscopy. X-ray and CT examination at 1 week after operation showed good position of artificial elbow joint; the anteversion of ulna prosthesis was 30° and the elbow carrying angle was 15°, which were consistent with the simulated results before surgery. The finger flexion was normal at 1 month after operation; the range of motion was 0-130° for elbow flexion and extension, 80° for forearm pronation, and 80° for forearm supination. The elbow function was able to meet the needs of daily life at 7 months after operation, and no recurrence and metastasis of tumor were observed. Conclusion For limb salvage of elbow joint, computer aided design can make preoperative surgical simulation; the navigation template can improve surgical precision; and the function of elbow joint can be reconstructed with customized and personlized prosthesis for total elbow replacement.

    Release date:2017-04-12 11:26 Export PDF Favorites Scan
  • Research progress of three-dimensional printing technique in foot and ankle surgery

    Objective To review the current research progress of three-dimensional (3-D) printing technique in foot and ankle surgery. Methods Recent literature associated with the clinical application of 3-D printing technique in the field of medicine, especially in foot and ankle surgery was reviewed, summarized, and analyzed. Results At present, 3-D printing technique has been applied in foot and ankle fracture, segmental bone defect, orthosis, corrective surgery, reparative and reconstructive surgery which showed satisfactory effectiveness. Currently, there are no randomized controlled trials and the medium to long term follow-up is necessary. Conclusion The printing materials, time, cost, medical ethics, and multi-disciplinary team restricted the application of 3-D printing technique, but it is still a promising technique in foot and ankle surgery.

    Release date:2017-07-13 11:11 Export PDF Favorites Scan
  • Application of three-dimensional printing in the operation of distal tibia fracture involving epiphyseal plate injury for teenagers

    Objective To investigate the application value of three-dimensional (3-D) printing technology in the operation of distal tibia fracture involving epiphyseal plate injury for teenagers. Methods The retrospective analysis was conducted on the clinical data of 16 cases of children patients with distal tibia fracture involving epiphyseal plate injury undergoing the operation by using of 3-D printing technology between January 2014 and December 2015. There were 12 males and 4 females with an age of 9-14 years (mean, 12.8 years). The causes of injury included traffic accident injury in 9 cases, heavy pound injury in 3 cases, and sport injury in 4 cases. The time from injury to operation was 3-92 hours (mean, 25.8 hours). According to Salter-Harris typing standard, the typing for epiphyseal injury was classified as type Ⅱ in 11 cases, type Ⅲ in 4 cases, and type Ⅳ in 1 case. The thin slice CT scan on the affected limb was performed before operation, and the Mimics14.0 medical software was applied for the design and the 1∶1 fracture model was printed by the 3-D printer; the stimulation of operative reduction was made in the fracture model, and bone plate, Kirschner wire, and hollow screw with the appropriate size were chosen, then the complete operative approach and method were designed and the internal fixator regimen was chosen, then the practical operation was performed based on the preoperative design regimen. Results The operation time was 40-68 minutes (mean, 59.1 minutes); the intraoperative blood loss was 5-102 mL (mean, 35 mL); the intraoperative fluoroscopy times was 2-6 times (mean, 2.8 times). All the patiens were followed up 12-24 months (mean, 15 months). The fracture of 15 cases reached anatomic reduction, and 1 cases had no anatomic reduction with the displaced end less than 1 mm. All the fractures reached bony union with the healing time of 2-4 months (mean, 2.6 months). There was no deep vein thrombosis, premature epiphyseal closure and oblique, or uneven ankle surface occurred, and there was no complication such as osteomyelitis, varus or valgus of ankle joint, joint stiffness, traumatic arthritis. Helfet scores of ankle function were measured at 12 months after operation, the results were excellent in 15 cases and good in 1 case. The angulation of introversion and extroversion for the affected limb was (6.56±2.48)°, and the growth length was (4.44±2.31) mm, and there was no significant difference (t=0.086, P=0.932; t=0.392, P=0.697) when compared with the uninjured side [(6.50±1.51)°, (4.69±1.08) mm]. Conclusion As the assistive technology, 3-D printing technology has a certain clinical application value in improving the effectiveness of distal tibia fracture involving epiphyseal plate injury.

    Release date:2017-10-10 03:58 Export PDF Favorites Scan
  • 增强现实技术联合 3-D 打印技术行半椎体置换治疗椎体肿瘤一例

    目的 总结增强现实(augmented reality,AR)技术联合 3-D 打印技术行半椎体置换治疗椎旁巨大神经鞘膜瘤 1 例经验。 方法 2017 年 3 月收治 1 例 66 岁男性椎旁巨大神经鞘膜瘤患者。术前 CT 增强扫描显示,脊柱腰骶部右侧旁盆腔内见一 8.9 cm×7.8 cm×7.6 cm 大小的不均匀明显强化肿块。利用 Mimics 软件处理 CT 扫描数据,模拟手术切除肿瘤,设计 L5、S1 椎体模型,并 3-D 打印钛合金椎体。术中术者佩戴导入了术前重建 AR 影像的 Hololens 眼镜,彻底切除肿瘤后,植入打印钛合金椎体。 结果 患者手术顺利完成,手术时间 245 min,术中出血量约 1 200 mL。术后病理检查结果示:(腹膜后脊柱旁)神经鞘瘤。术后 6 个月随访,患者疼痛视觉模拟评分(VAS)由术前 5 分降至 2 分;X 线片及 CT 复查示钛金属椎体呈部分骨性融合,位置良好,无断裂、脱出,椎体无塌陷。 结论 应用 AR 技术辅助肿瘤切除,联合 3-D 打印假体置换治疗椎旁巨大肿瘤可行。

    Release date:2017-11-09 10:16 Export PDF Favorites Scan
  • Application of three-dimensional printing technology for closed reduction and percutaneous cannulated screws fixation of displaced intraarticular calcaneus fractures

    Objective To evaluate the effectiveness of three-dimensional (3-D) printing assisting minimally invasive for intraarticular calcaneal fractures with percutaneous poking reduction and cannulate screw fixation. Methods A retrospective analysis was performed of the 19 patients (19 feet) with intraarticular calcaneal fracture who had been treated between March 2015 and May 2016. There were 13 males and 6 females with an average age of 38.2 years (range, 24-73 years). There were 3 open fractures and 16 closed fractures. By Sanders classification, 12 cases were type Ⅱ, 7 cases were type Ⅲ. By Essex-Lopresti classification, 13 cases were tongue type, 6 cases were joint-depression type. The time from injury to surgery was 1-10 days (mean, 4.7 days). A thin slice CT scan was taken of bilateral calcaneus in patients. By using the mirror imaging technique, the contralateral mirror image and the affected side calcaneus model were printed according to 1∶1 ratio. The displacement of fracture block was observed and contrasted, and the poking reduction was simulated. Calcaneal fracture was treated by percutaneous minimally invasive poking reduction and cannulate screw fixation. The Böhler angle and Gissane angle at immediate after operation and last follow-up was measured on X-ray films, and compared with preoperative measurement. The functional recovery was evaluated by American Orthopaedic Foot and Ankle Society (AOFAS) scores. Results The operation time was 25-70 minutes (mean, 45 minutes). The intraoperative blood loss was 10-40 mL (mean, 14.5 mL). All the incisions healed by first intention and had no relevant postoperative complications such as skin necrosis, nail tract infection, and osteomyelitis. All the patients were followed up 12-25 months (mean, 14.6 months). All patients obtained fracture healing, and the fracture healing time was 8-14 weeks (mean, 10.3 weeks). No screw withdrawal or breakage occurred during follow-up; only 1 patient with Sanders type Ⅱ fracture, whose calcaneus height was partially lost at 6 weeks after operation, the other patients had no reduction loss and fracture displacement, and no traumatic arthritis occurred. The Böhler angle and Gissane angle at immediate after operation and last follow-up were significantly improved when compared with preoperative ones (P<0.05), but there was no significant difference between at immediate after operation and last follow-up (P>0.05). The AOFAS score was 76-100 (mean, 88.2), and the results were excellent in 10 feet, good in 7, and fair in 2, the excellent and good rate was 89.5%. Conclusion 3-D printing assisting minimally invasive for intraarticular calcaneal fractures with percutaneous poking reduction and cannulate screw fixation can reduce the surgical trauma, improve the quality of reduction and fixation, and make the operation more safe, accurate, and individualized.

    Release date:2017-11-09 10:16 Export PDF Favorites Scan
  • 3-D 打印技术辅助人工全髋关节置换术治疗 Crowe Ⅳ 型髋关节发育不良合并股骨近段畸形一例

    目的 介绍 3-D 打印技术辅助人工全髋关节置换术(total hip arthroplasty,THA)治疗 1 例 Crowe Ⅳ 型髋关节发育不良合并股骨近段畸形的临床经验。 方法 2017 年 2 月,收治 1 例 40 岁 Crowe Ⅳ 型髋关节发育不良合并股骨近段畸形的女性患者。术前采用 Mimics 软件建立患侧髋关节三维数字模型,3-D 打印患侧股骨模型,根据模型设计股骨假体截骨位置及截骨大小。采用 Magics 19.0 软件设计制作个性化股骨截骨导板三维模型,并 3-D 打印。THA 术中应用截骨导板进行股骨截骨矫形。 结果 手术时间 98 min。术后第 2 天髋关节正侧位 X 线片检查示,髋臼假体安放、螺钉植入角度及位置均理想,恢复髋臼正常旋转中心,股骨截骨两端对位良好,下肢力线恢复正常。患者获随访 6 个月,Harris 评分为 95 分,较术前(38 分)明显提高;疼痛视觉模拟评分(VAS)为 0 分,较术前(7 分)明显下降。随访期间未发生假体松动、感染、血栓形成等并发症。 结论 3-D 打印技术辅助 THA 治疗 Crowe Ⅳ 型髋关节发育不良合并股骨近段畸形,能简化手术操作、提高手术准确度、减少组织损伤、降低手术风险,取得满意临床疗效。

    Release date:2018-01-09 11:23 Export PDF Favorites Scan
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